Your search keyword '"Liao, Yunlong"' showing total 3 results

1. Catalytic performance of binary transition metal sulfide FeCoS2/rGO for lithium–sulfur batteries.

Author

Gan, Tian, Wang, Jin, Liao, Yunlong, Lin, Zhiping, and Wu, Fugen

Subjects

METAL sulfides, TRANSITION metals, TRANSITION metal oxides, LITHIUM sulfur batteries, ELECTRON density, BINDING energy, CATALYTIC activity

Abstract

The FeCoS2/rGO was synthesized by a one-step hydrothermal method, which has the advantages of environmental friendliness and low cost. Dense and homogeneous FeCoS2 nanodots are dispersed in the reduced graphene oxide flakes, which is beneficial to improve catalytic activity. Compared with FeS2/rGO, FeCoS2/rGO exhibits much higher initial discharge capacity and much better capacity retention ratio. The lower activation energy and the relatively narrow peak shape and small reduction/oxidation peak spacing show that FeCoS2/rGO have better catalytic activity than FeS2/rGO. It can be also confirmed by first-principles calculation that the adsorption energy of the Fe site (− 1.8334 eV) and the Co site (− 1.7539 eV) on the FeCoS2 surface is better than that of FeS2. So, the synergistic reaction of Fe and Co will adjust microregional electron density and change binding energy to polysulfides. [ABSTRACT FROM AUTHOR]

Published

2023

2. High Quality TaS 2 Nanosheet SPR Biosensors Improved Sensitivity and the Experimental Demonstration for the Detection of Hg 2+.

Author

Jia, Yue, Liao, Yunlong, and Cai, Houzhi

Subjects

*BIOSENSORS, *TRANSITION metals, *DETECTION limit

Abstract

TaS2 as transition metal dichalcogenide (TMD) two-dimensional (2D) material has sufficient unstructured bonds and large inter-layer spacing, which highly supports transporting and absorbing mercury ions. The structural characterizations and simulation data show that an SPR sensor with high sensitivity can be obtained with a TaS2 material-modified sensitive layer. In this paper, the role of TaS2 nanoparticles in an SPR sensor was explored by simulation and experiment, and the TaS2 layer in an SPR sensor was characterized by SEM, elemental mapping, XPS, and other methods. The application range of structured TaS2 nanoparticles is explored, these TaS2 based sensors were applied to detect Hg2+ ions at a detection limit approaching 1 pM, and an innovative idea for designing highly sensitive detection techniques is provided. [ABSTRACT FROM AUTHOR]

Published

2022

3. All-optical applications for passive photonic devices of TaS2 nanosheets with strong Kerr nonlinearity.

Author

Liao, Yunlong, Ma, Qian, Shan, Youxian, Liang, Junwu, Dai, Xiaoyu, and Xiang, Yuanjiang

Subjects

*PASSIVE components, *SELF-phase modulation, *LIGHT propagation, *OPTICAL switches, *TRANSITION metals, *TANTALUM

Abstract

2D Tantalum disulphide (TaS 2) has been widely studied as a typical transition metal dichalcogenides (TMDCs) with excellent optical, chemical and electrochemical properties. However, there is little research on the comprehensively characterizing the interaction between light and the 2D TaS 2 material. In this work, we studied the nonlinear optical response of the high quality few-layer TaS 2 nanosheets and its all-optical applications. Our research shows that 2D TaS 2 nanosheet has a broadband characteristic and exhibits a strong Kerr nonlinear optical response based on the spatial self-phase modulation (SSPM). More importantly, by taking advantage of the highly nonlinear optical response of the2D TaS 2 , typical all-optical phenomena, such as all-optical switching and nonreciprocal light propagation, have been demonstrated experimentally. This work can be viewed as an important demonstration of a TMDCs-based application prototype in nonlinear photonics, which could potentially indicate an essential step toward miscellaneous TMDCs-based passive photonic devices (all-optical diodes, all-optical switches, etc.) • Spatial self-phase modulation of 2D TaS 2 was demonstrated firstly. • Broadband and strong Kerr nonlinear optical response of 2D TaS2 were confirmed. • All-optical switching has been realized with 2D TaS 2. • Nonreciprocal light propagation and all-optical diode were designed with 2D TaS 2. [ABSTRACT FROM AUTHOR]

Published

2019